WO2023188141A1 - Récipient de cryoconservation - Google Patents

Récipient de cryoconservation Download PDF

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Publication number
WO2023188141A1
WO2023188141A1 PCT/JP2022/016094 JP2022016094W WO2023188141A1 WO 2023188141 A1 WO2023188141 A1 WO 2023188141A1 JP 2022016094 W JP2022016094 W JP 2022016094W WO 2023188141 A1 WO2023188141 A1 WO 2023188141A1
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WO
WIPO (PCT)
Prior art keywords
cap
locking
cryopreservation container
main body
container according
Prior art date
Application number
PCT/JP2022/016094
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English (en)
Japanese (ja)
Inventor
正成 桑山
リオ 桑山
Original Assignee
株式会社先端生殖技術研究所
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by 株式会社先端生殖技術研究所 filed Critical 株式会社先端生殖技術研究所
Priority to PCT/JP2022/016094 priority Critical patent/WO2023188141A1/fr
Publication of WO2023188141A1 publication Critical patent/WO2023188141A1/fr

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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N1/00Preservation of bodies of humans or animals, or parts thereof
    • A01N1/02Preservation of living parts
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61DVETERINARY INSTRUMENTS, IMPLEMENTS, TOOLS, OR METHODS
    • A61D19/00Instruments or methods for reproduction or fertilisation
    • A61D19/02Instruments or methods for reproduction or fertilisation for artificial insemination
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M1/00Apparatus for enzymology or microbiology
    • C12M1/26Inoculator or sampler

Definitions

  • the present disclosure relates to cryopreservation containers.
  • cryopreservation containers have been used to cryopreserve biological materials such as animal embryos, eggs, or sperm.
  • eggs can be frozen by attaching eggs together with a small amount of vitrification liquid to a living cell holding part provided at one end of the main body, and then immersing the living cell holding part in liquid nitrogen prepared in advance.
  • a living cell cryopreservation device has been proposed (Patent Document 1).
  • This living cell cryopreservation tool is equipped with a cylindrical storage member that covers the living cell holding part, and is configured to be able to be stored in the cylindrical storage member except for the grip provided at the rear end of the main body. There is.
  • a tapered part that can be engaged with the opening of the cylindrical storage member is provided near the gripping part of the main body, and when this tapered part is fitted into the opening of the cylindrical storage member, biological cells can be The inside of the cylindrical housing member in which the holding part is housed is sealed.
  • a cryopreservation container is used by immersing a portion thereof in liquid nitrogen, at least one of the main body and the cylindrical storage member is generally held in a state of being sandwiched between the main body and the cylindrical storage member.
  • the present disclosure aims to provide a cryopreservation container in which it can be easily recognized that the cap portion is securely attached to the main body.
  • the cryopreservation container includes a cylindrical cap portion with one end sealed and a main body to which the cap portion is attached, and is used in contact with liquid nitrogen.
  • the cryopreservation container has an insertion section in which the cap part has a first locking part on the inner circumferential surface, the main body has a second locking part, and a tip of the insertion part, in which the biological material is placed.
  • the first locking part formed integrally with the cap part and the second locking part integrally formed with the insertion part are made of polyethylene terephthalate, polypropylene, polyethylene, polycarbonate, or annular, respectively. Consists of resins made from olefin copolymers, polyvinyl chloride, polystyrene, low-density polyethylene, polymethyl methacrylate, trifluorochloroethylene, tetrafluoroethylene/hexafluoropropylene copolymer, vinylidene fluoride, or polyamide. It is characterized by
  • the cryopreservation container according to the present disclosure is characterized in that the first locking portion is one or more convex portions.
  • the cryopreservation container according to the present disclosure is characterized in that the first locking portion has an inclined surface that slopes toward the opening side.
  • the cryopreservation container according to the present disclosure is characterized in that the cap portion has a thin wall portion formed on the opening side that is thinner than the one end side, and the thickness of the thin wall portion is 0.05 mm to 0.5 mm. .
  • the cryopreservation container according to the present disclosure is characterized in that the second locking portion is formed in an annular shape or in a plurality of convex shapes along the outer periphery of the insertion portion.
  • the insertion portion has an enlarged diameter portion having an outer diameter larger than the inner diameter of the cap portion, and the storage portion is sealed by fitting the enlarged diameter portion inside the cap portion. It is characterized by
  • the cap part has a reduced diameter part with an inner diameter smaller than the outer diameter of the insertion part, and the storage part is sealed by fitting the insertion part inside the reduced diameter part. It is characterized by
  • the cryopreservation container according to the present disclosure is characterized in that the outer diameter of the cap portion decreases from the opening side to one end, and a stopper portion larger than the outer diameter of the one end is provided at one end.
  • the cryopreservation container includes a cap portion having a first locking portion and a main body having a second locking portion at the insertion portion.
  • a biological material placement part is provided at the tip of the insertion part, and by inserting the insertion part through the opening of the cap part, the biological material is placed in the storage part formed by the cap part and the insertion part.
  • a biological material placement section is housed.
  • the first locking part and the second locking part are locked, and due to the force generated when the first locking part and the second locking part are locked, a certain resistance is felt. Since the user can feel the feeling of wearing when the first locking part and the second locking part are locked, the user can easily recognize that the cap part is securely attached to the main body.
  • FIG. 1 is a front view of a cryopreservation container according to a first embodiment of the present disclosure, with a main body and a cap section removed.
  • FIG. 2 is a front view of the cryopreservation container according to the first embodiment of the present disclosure, just before the first locking part and the second locking part are locked.
  • FIG. 3 is a front view of the cryopreservation container according to the first embodiment of the present disclosure, with the cap section attached to the main body.
  • FIG. 4 is an enlarged view of the inside of the cryopreservation container according to the first embodiment of the present disclosure, with the cap section attached to the main body.
  • FIG. 5 is an enlarged view of the inside of the cryopreservation container according to the first embodiment of the present disclosure, just before the first locking part and the second locking part are locked.
  • FIG. 6 is an enlarged view of the inside of the cryopreservation container according to the first embodiment of the present disclosure in a state where the first locking part and the second locking part are locked.
  • FIG. 7 is a plan view of the cap portion of the cryopreservation container according to the first embodiment of the present disclosure.
  • FIG. 8 is an enlarged view of the interior of the cryopreservation container according to the second embodiment of the present disclosure, in which the cap portion is attached to the main body and the first locking portion and the second locking portion are locked. It is.
  • FIG. 9 is an enlarged view of the interior of the cryopreservation container according to the third embodiment of the present disclosure, in which the cap portion is attached to the main body and the first locking portion and the second locking portion are locked. It is.
  • FIG. 10 is an enlarged view of the interior of the cryopreservation container according to the fourth embodiment of the present disclosure, in which the cap portion is attached to the main body and the first locking portion and the second locking portion are locked. It is.
  • the lateral direction when the cryopreservation container 100 is viewed from the side is defined as the front-rear direction Z.
  • the cryopreservation container 100 is used in liquid nitrogen to cryopreserve biological materials such as embryos, eggs, or sperm.
  • biological materials such as embryos, eggs, or sperm.
  • a case where eggs are cryopreserved will be explained as an example.
  • the cryopreservation container 100 includes a main body 2 and a cap part 3 attached to the main body 2.
  • the main body 2 and the cap portion 3 are made of resin that is resistant to liquid nitrogen.
  • the cap part 3 is configured to be attachable to the main body 2 with a part of the main body 2 inserted inside the cap part 3.
  • the main body 2 includes a rod-shaped grip part 4 formed downward from its upper end, an insertion part 5 connected to the lower end of the grip part 4 and narrowing downward, and provided at the tip of the insertion part 5, A plate-shaped biological material placement section 6 extending downward is provided.
  • the grip part 4 is formed in a square prism shape with the vertical direction X as the longitudinal direction, and is a part that is gripped by the user when operating the main body 2.
  • the insertion part 5 is a part that is inserted into the inside of the cap part 3 when the cap part 3 is attached to the main body 2 (FIG. 2).
  • the insertion portion 5 is composed of a base portion 5a connected to the grip portion 4 and a holding portion 5b connected to the lower end of the base portion 5a.
  • the base portion 5a is formed in a cylindrical shape whose longitudinal direction is the vertical direction X, and the holding portion 5b is formed in a conical shape whose outer diameter decreases downward from the connecting portion with the base portion 5a.
  • the holding portion 5b has an enlarged diameter portion 5d formed in an annular shape extending approximately halfway in the vertical direction X along the outer periphery of the holding portion 5b. Furthermore, a biological material placement section 6 is provided at the lower end of the holding section 5b.
  • the biological material placement section 6 is made of an elastic sheet or film, and eggs are placed on the surface of the biological material placement section 6 in the cryopreservation container 100 .
  • the cap portion 3 is formed into a cylindrical shape with a lower end 3a that is one end closed, with the vertical direction X being the longitudinal direction.
  • An opening 3b that opens upward is formed at the upper end, which is the other end of the cap portion 3.
  • the cap portion 3 is formed such that its outer diameter gradually decreases from the opening 3b side to the lower end 3a.
  • the thickness of the resin constituting the cap portion 3 is thinner on the opening 3b side than on the lower end 3a side, and this thinner portion is the thinner portion 3c.
  • the thickness of the thin portion 3c is preferably from 0.05 mm to 0.5 mm.Furthermore, since the resin hardens at an extremely low temperature in liquid nitrogen compared to the case at room temperature, the cap portion 3 can be attached smoothly.
  • the thickness of the thin portion 3c is formed to be 0.15 mm.
  • the length L1 of the thin wall portion 3c in the vertical direction It is formed like this.
  • the length L1 is 0.9 mm, which is about one fourth of the length L3 from the opening 3b to the lower end 3a of the cap portion 3.
  • a reduced diameter part 3d is connected to the lower end of the thin part 3c.
  • the reduced diameter portion 3d is a portion where the resin constituting the cap portion 3 is thicker than the thin portion 3c, and is formed across the lower end 3a of the cap portion 3.
  • the length L4 of the reduced diameter portion 3d in the vertical direction It is configured such that the holding section 5b and the biological material mounting section 6 are housed inside.
  • the reduced diameter portion 3d is formed such that its inner diameter gradually decreases toward the lower end 3a.
  • the inner diameter of the reduced diameter part 3d is slightly larger than the outer diameter OD2 of the enlarged diameter part 5d near the thinned part 3c, and smaller than the outer diameter OD2 of the enlarged diameter part 5d in other parts. Figure 4). Therefore, when the enlarged diameter part 5d is inserted inside the tapered reduced diameter part 3d, the fitting area A of the reduced diameter part 3d has an inner diameter that is the same as the outer diameter OD2 of the enlarged diameter part 5d.
  • the enlarged diameter portion 5d is configured to fit into the opening. Then, the storage portion 7 is sealed by the enlarged diameter portion 5d pushed into the fitting region A.
  • the insertion section 5 and the biological material placement section 6 are inserted inside the cap section 3.
  • a storage part 7, which is a sealed space, is formed inside the cap part 3 by the cap part 3 and the holding part 5b (FIG. 4).
  • the biological material placement section 6 is housed in the storage section 7.
  • the cap portion 3 has a first locking portion 10, as shown in FIGS. 5 and 6.
  • the first locking portion 10 is a convex portion formed on the inner circumferential surface 3e of the thin portion 3c, and is formed on the opening portion 3b side. Further, the first locking portion 10 is formed integrally with the cap portion 3 and is formed at positions facing each other. The first locking portion 10 is locked to the second locking portion 20 when the cap portion 3 is attached to the main body 2 .
  • the first locking portions 10 are each formed to curve and swell from the inner circumferential surface 3e.
  • the first locking part 10 has an opening 3b side, that is, an upper side surface 10b, which is an upper side surface, and a lower side surface 10c, which is a lower side surface, with the tip end 10a as a boundary. There is.
  • the upper side surface 10b and the lower side surface 10c are inclined surfaces that curve upward or downward from the tip end 10a, respectively (FIGS. 5 and 6).
  • the first locking portion 10 is formed to have a width W in the radial direction of the cap portion 3 of 0.13 mm. This width W is preferably from 0.01 mm to 0.8 mm. Further, the length of the first locking portion 10 in the vertical direction X, that is, the height H, is set to 0.6 mm (FIG. 4). This height H is preferably from 0.45 mm to 0.85 mm. Note that the width W and height H of the first locking portion 10 can be arbitrarily determined in consideration of the clearance between the inner circumference of the thin portion 3c and the outer circumference of the base portion 5a.
  • the second locking portion 20 is annularly formed along the outer periphery of the base 5a of the insertion portion 5 and protrudes from the outer circumferential surface 5c of the base 5a (FIG. 5).
  • the second locking part 20 has an upper side surface 20b, which is an upper side surface, and a lower side surface 20c, which is a lower side surface, with the tip part 20a, which is the tip of the second locking part 20, as a boundary. There is.
  • the lower side surface 20c of the second locking portion 20 is formed as a gentle slope compared to the upper side surface 20b. Therefore, when the cap part 3 is attached to the main body 2, the first locking part 10 is pressed by the lower side surface 20c, and the thin part 3c is gradually expanded. Then, as the main body 2 is further pushed toward the cap portion 3, the first locking portion 10 that has climbed over the tip portion 20a of the second locking portion 20 is locked to the upper side surface 20b (FIG. 6).
  • the second locking part 20 protrudes from the periphery of the base part 5a with the same width, but for example, it may be formed into a wave shape with a plurality of convex parts connected in a ring shape.
  • the enlarged diameter portion 5d is formed in an annular shape along the outer periphery of the holding portion 5b at approximately the middle of the holding portion 5b in the vertical direction X (FIG. 4).
  • the enlarged diameter portion 5d is formed to protrude from the outer circumferential surface 5e of the holding portion 5b, and its outer diameter OD2 is larger than the inner diameter of the portion of the reduced diameter portion 3d other than the vicinity of the thin portion 3c.
  • the insertion part 5 in which the enlarged diameter part 5d, the base part 5a, the holding part 5b, and the second locking part 20 are integrally formed is shown as an example, but the enlarged diameter part 5d, the base part 5a, the holding part 5b and the second locking part 20 may be formed as separate members.
  • the weight portion 8 is a quadrangular prism-shaped portion provided at the lower end 3a of the cap portion 3 (FIG. 1).
  • the square prism-shaped weight part 8 whose longitudinal direction is the vertical direction X has an upper surface 8a connected to the lower end 3a of the cap part 3, and is formed integrally with the cap part 3.
  • the shape of the weight portion 8 is not limited to a quadrangular prism shape, but may be formed in a cylindrical shape or a polygonal prism shape.
  • the stopper portion 9 is formed by the upper surface 8a of the weight portion 8 and the lower end 3a of the cap portion 3. Specifically, the length L6 of each side of the upper surface 8a of the weight portion 8 is longer than the outer diameter OD3 at the lower end 3a of the cap portion 3 (FIG. 7). Therefore, on the upper surface 8a, there is a portion that protrudes in the direction around the axis of the cap portion 3 from the connecting portion with the lower end 3a. This portion that protrudes in the direction around the axis is the stopper portion 9.
  • the stopper portion 9 is formed.
  • the main body 2 and cap portion 3 are made of resin that can withstand the temperature of liquid nitrogen because they come into contact with liquid nitrogen during use.
  • the resin used for the main body 2 and the cap portion 3 include polyethylene terephthalate (PET), polypropylene (PP), polyethylene (PE), polycarbonate (PC), cyclic olefin copolymer (COC), or polyurethane (PU). Resins such as are used.
  • vinyl resins such as polyvinyl chloride (PVC), polyvinylidene chloride (PVDC), or polyvinyl alcohol (PVA), polystyrene (PS), and high-density polyethylene (HDPE) are also available.
  • PVC polyvinyl chloride
  • PVDC polyvinylidene chloride
  • PVA polyvinyl alcohol
  • PS polystyrene
  • HDPE high-density polyethylene
  • MDPE medium-density polyethylene
  • LDPE low-density polyethylene
  • EVA ethylene-vinyl acetate copolymer
  • PMMA polymethyl methacrylate
  • MA methacrylic-styrene copolymer
  • Acrylic resins such as MS), trifluorochloroethylene (PCTFE), tetrafluoroethylene (PTFE), tetrafluoroethylene/hexafluoropropylene copolymer (FEP), vinylidene fluoride (PVDF), etc.
  • Resins such as fluorine-based resins, polyamide-based resins such as polyamide (PA), polyacetal (POM), or cellulose acetate (CA) can be used.
  • polyethylene terephthalate and polystyrene are preferred because they have high transparency and make it easy to visually recognize the eggs placed on the biological material placement section 6 when used in liquid nitrogen or when observing the eggs under a microscope.
  • polyethylene terephthalate is preferably used for the biological material mounting portion 6 because it has high resistance to solvents such as ethylene glycol, propylene glycol, dimethyl sulfoxide, and glycerin used as cryoprotectants for eggs.
  • an egg is attached to the surface of the tip of the biological material placement section 6 along with a vitrification solution containing a cryoprotectant.
  • the biological material placement part 6 of the main body 2 to which at least the eggs are attached is immersed in liquid nitrogen prepared in advance in a container to freeze (vitrify) the eggs.
  • the cap part 3 held with tweezers is immersed in liquid nitrogen to sufficiently lower the temperature, and then the biological material placement part 6 and the insertion part 5 are inserted into the cap part 3.
  • the cryopreservation container 100 is erected so that the main body 2 is on the upper side and the cap part 3 is on the lower side, and with the lower end of the weight part 8 in contact with the bottom of the container, the main body 2 is placed on the cap part 3 side. It is pushed further towards. Then, the second locking part 20 passes over the tip 10a of the first locking part 10 and is locked to the first locking part 10 (FIG. 6).
  • the feeling of wearing when the first locking part 10 and the second locking part 20 are locked is transmitted to the user's fingers, and the cap part 3 is installed on the main body 2 (FIG. 3). Then, the egg and biological material placement part 6 is stored in the storage part 7 formed by the cap part 3 and the insertion part 5. Furthermore, the expanded diameter portion 5d is pushed into and fitted inside the reduced diameter portion 3d of the cap portion 3, thereby sealing the storage portion 7 (FIG. 4).
  • cryopreservation containers 100 containing eggs are similarly housed in a goblet, and the goblets are then stored by immersing them in liquid nitrogen in a liquid nitrogen tank.
  • the effects of the cryopreservation container 100 will be explained.
  • the force generated when the first locking portion 10 and the second locking portion 20 are locked causes a feeling of wearing. can be obtained. This feeling of wearing allows the user to easily recognize that the cap portion 3 is securely attached to the main body 2.
  • the user usually holds the main body 2 by gripping the gripping part 4 with the fingers of one hand, and holds the cap part 3 in liquid nitrogen with the other hand using tweezers. Proceed with cryopreservation work.
  • the cap part 3 can be easily attached to the main body 2 by simply pushing the main body 2 into the cap part 3 side using the bottom of the container while supporting the cap part 3 with tweezers. can.
  • it can be easily recognized that the cap part 3 is securely attached to the main body 2, so there is no need to pull the cap part 3 out of the liquid nitrogen to check the attachment status, and the work can be carried out efficiently. be able to.
  • the cryopreservation container 100 Since the user can adjust the force with which the cryopreservation container 100 is pushed into the main body 2 based on the feeling of wearing, the user does not push in with more force than necessary, and the cryopreservation container 100 can be prevented from being deformed. Furthermore, the cryopreservation container 100 does not require the tip of the cap part 3 (the other end where the opening 3b is formed) to be pulled up from the liquid nitrogen, and the series of operations for attaching the cap part 3 to the main body 2 can be carried out using liquid nitrogen. It can be done inside. Therefore, the cap part 3 can be attached to the main body 2 without the operator's fingers touching the liquid nitrogen at the tip of the cap part 3.
  • the cap part 3 since the operator can attach the cap part 3 to the main body 2 without touching the tip of the cap part 3, the cap part 3 is not vaporized by the liquid nitrogen inside the cap part 3, and the cap part 3 can be stably attached to the main body 2. Can be installed.
  • the first locking part 10 is formed integrally with the cap part 3, and the second locking part 20 is formed integrally with the insertion part 5.
  • Each of the first locking part 10 and the second locking part 20 is made of polyethylene terephthalate, polypropylene, polyethylene, polycarbonate, cyclic olefin copolymer, polyvinyl chloride, polystyrene, low-density polyethylene, polymethyl among the above-mentioned resins. It is composed of resins made from methacrylate, trifluorochloroethylene, tetrafluoroethylene/hexafluoropropylene copolymer, vinylidene fluoride, or polyamide.
  • the first locking part 10 and the second locking part 20 have a certain degree of elasticity even in a cryogenic environment in liquid nitrogen, compared to those made of other materials such as metal. Therefore, even in an extremely low temperature environment, the cap part 3 can be stably attached to the main body 2 while providing the feeling of wearing caused by the first locking part 10 and the second locking part 20 being locked. can.
  • the cap portion 3 is connected to the main body 2 compared to a case where the first locking portion is formed as a concave portion. Can be installed smoothly.
  • the first locking part 12 is a concave part like the cryopreservation container 102 of the third embodiment described later (FIG. 9)
  • the first locking part 12 extends from the outer peripheral surface 5c of the base part 5a in the direction around the axis.
  • the maximum outer diameter OD4 of the second locking part 22 is formed larger than the inner diameter ID of the thin part 3c of the cap part 3.
  • the second locking part 22 contacts the edge of the opening part 3b and then presses the inner peripheral surface 3e of the thin part 3c while pressing the cap part 3. It is pushed inside 3. Then, until the second locking part 22 reaches the position of the first locking part 12, the inner circumferential surface 3e of the thin part 3c is pressed by the second locking part 22, so there is always resistance. A feeling arises.
  • the first locking part 10 when the first locking part 10 is a convex part, the maximum outer diameter including the tip 20a of the second locking part 20 is smaller than the inner diameter ID of the thin part 3c of the cap part 3. Since a clearance can be provided between the tip end 20a of the second locking part 20 and the thin part 3c of the cap part 3, the cap part 3 can be smoothly attached without feeling any resistance.
  • the first locking portion 10 when the first locking portion 10 is a convex portion, the clearance between the inner circumference of the cap portion 3 and the outer circumference of the insertion portion 5, the shape and size of the second locking portion 20, etc. Taking the conditions into consideration, it is also easy to form the first locking portion 10 that provides a desired wearing feeling.
  • the first locking portion 10 has an upper side surface 10b that is an inclined surface that slopes toward the opening 3b. Therefore, when the cap part 3 is attached to the main body 2, it is pushed in with the second locking part 20 in contact with the upper side surface 10b, and the second locking part 20 is attached to the tip of the first locking part 10. It is possible to smoothly get over the portion 10a. Therefore, the user can attach the cap part 3 to the main body 2 with an appropriate force without causing any unnecessary resistance, so that it can be used safely.
  • the cap portion 3 has a thin wall portion 3c on the opening 3b side, and the thickness of this thin wall portion 3c is 0.15 mm. Therefore, a certain elasticity is maintained in the thin wall portion 3c even in an extremely low temperature environment in liquid nitrogen, so that the cap portion 3 can be smoothly attached to the main body 2.
  • the second locking portion 20 is formed in an annular and convex shape along the outer periphery of the base portion 5a of the insertion portion 5. Therefore, when the cap portion 3 is attached to the main body 2, the first locking portion 10 is attached to the second locking portion regardless of the relative position of the first locking portion 10 and the second locking portion 20. 20 can be securely locked. Therefore, alignment between the first locking part 10 and the second locking part 20 is not necessary, so that work efficiency is improved.
  • the insertion part 5 has an enlarged diameter part 5d formed with an outer diameter OD2 larger than the inner diameter of the reduced diameter part 3d.
  • the cap portion 3 has a reduced diameter portion 3d formed to have an inner diameter smaller than the outer diameter OD2 of the enlarged diameter portion 5d. Then, the enlarged diameter portion 5d of the insertion portion 5 is fitted inside the reduced diameter portion 3d in the fitting region A, thereby sealing the storage portion 7. Therefore, by attaching the cap part 3 to the main body 2, it is possible to prevent contaminants from entering the storage part 7 from the outside of the cryopreservation container 100, and the eggs can be safely cryopreserved.
  • the outer diameter of the cap portion 3 decreases from the opening 3b side to the lower end 3a, and a stopper portion 9 that is larger than the outer diameter OD3 of the lower end 3a is provided at the lower end 3a. Therefore, when removing the cap part 3 attached to the main body 2, the user holds the cap part 3 with tweezers and slides it from the opening 3b side toward the lower end 3a, so that the tweezers are attached to the stopper part 9. It can be hooked. Thereby, the cap part 3 can be easily removed from the main body 2 using the stopper part 9. Therefore, there is no need to pull up the cap part 3 from within the liquid nitrogen and remove it with fingers, improving work efficiency. Furthermore, since the cap portion 3 can be removed in an extremely low temperature environment in liquid nitrogen, the effects of sudden temperature changes on the eggs can be reduced.
  • the cryopreservation container 100 is provided with a weight portion 8. Therefore, when the cap part 3 is immersed in liquid nitrogen, the weight part 8 side can be easily turned downward, so that the cap part 3 and the cryopreservation container 100 can be easily maintained in a vertical state. Therefore, even in a state where the cap part 3 and a part of the cryopreservation container 100 are immersed in liquid nitrogen, the user can easily attach and remove the cap part 3.
  • the cryopreservation container 101 of this embodiment differs from the cryopreservation container 100 of the first embodiment mainly in the first locking part and the second locking part. Therefore, below, the first locking part 11 and the second locking part 21 of the cryopreservation container 101 will be mainly explained, and the same components as the cryopreservation container 100 will be given the same reference numerals and the explanation thereof will be omitted. .
  • the outer diameter OD1 of the base portion 5a of the insertion portion 5 is larger than that of the cryopreservation container 100, and a concave second locking portion 21 is formed in the base portion 5a.
  • the second locking portion 21 is formed by recessing the outer peripheral surface 5c of the base 5a in an annular manner along the outer periphery of the base 5a.
  • the first locking portions 11 are formed at two opposing locations on the inner circumferential surface 3e of the thin wall portion 3c.
  • This first locking part 11 is formed as a convex part that can be locked in the recess of the second locking part 21, and furthermore, between the tip parts 11a which are the tips of each first locking part 11,
  • the length L7 is formed shorter than the outer diameter OD1 of the base portion 5a.
  • the upper side surface 11b which is the upper side surface, is smaller than the first locking part 10 of the cryopreservation container 100, and the lower side surface 11c, which is the side surface on the lower end 3a side. It is formed as a gently sloped surface.
  • the base 5a when the base 5a is inserted inside the thin wall part 3c, the base 5a first When the first locking portion 11 comes into contact with the first locking portion 11, a feeling of resistance is generated. When the base portion 5a is further pushed downward against this resistance, the first locking portion 11 is pressed by the base portion 5a, and the thin portion 3c is pushed apart. Thereafter, when the first locking part 11 reaches the position of the second locking part 21, it is locked by the second locking part 21. At this time, the user gets a feeling of wearing that occurs when the first locking part 11 is locked with the second locking part 21. Therefore, it can be easily recognized that the cap portion 3 is securely attached to the main body 2.
  • the cryopreservation container 102 of this embodiment differs from the cryopreservation container 101 of the second embodiment mainly in the first locking part and the second locking part. Therefore, below, the first locking part 12 and the second locking part 22 of the cryopreservation container 102 will be mainly explained, and the same components as the cryopreservation container 100 and the cryopreservation container 101 will be given the same reference numerals. The explanation will be omitted.
  • the first locking portion 12 is formed as a concave portion on the inner circumferential surface 3e of the thin wall portion 3c. Specifically, the first locking portion 12 is formed by recessing the inner circumferential surface 3e in an annular shape along the inner circumference of the cap portion 3.
  • the second locking portion 22 is formed in a convex shape that can be locked in the recess of the first locking portion 12.
  • the second locking portion 22 extends annularly from the outer peripheral surface 5c of the base 5a along the outer periphery of the base 5a.
  • the maximum outer diameter OD4 including the distal end portion 22a, which is the distal end of the second locking portion 22, is larger than the inner diameter ID of the thin portion 3c.
  • a lower side surface 22c which is a lower side surface, is formed as an inclined surface that slopes more gently than an upper side surface 22b, which is an upper side surface.
  • the opening first locking portion 22 comes into contact with the edge of 3b, creating a feeling of resistance. Then, when the base portion 5a is pushed further downward against this feeling of resistance, the thin portion 3c is pushed wider by the second locking portion 22. Thereafter, when the second locking part 22 that has been pushed further reaches the position of the first locking part 12, it is locked by the first locking part 12. At this time, the user feels the wearing feeling that occurs when the second locking part 22 is locked with the first locking part 12. Therefore, it can be easily recognized that the cap portion 3 is securely attached to the main body 2.
  • the cryopreservation container 103 of this embodiment differs from the cryopreservation container 100 of the first embodiment mainly in the shape of the second locking part. Therefore, below, the second locking portion 23 of the cryopreservation container 103 will be mainly explained, and the same components as the cryopreservation container 100 will be given the same reference numerals and the explanation thereof will be omitted.
  • the second locking part 23 is formed in an annular shape along the outer periphery of the base 5a, protruding from the outer peripheral surface 5c of the base 5a and having a convex shape.
  • the second locking part 23 has an upper side surface 23b, which is an upper side surface, and a lower side surface 23c, which is a lower side surface, with the tip part 23a, which is the tip of the second locking part 23, as a boundary.
  • This lower side surface 23c is formed as a steeply sloped surface that is inclined at a larger angle with respect to the outer circumferential surface 5c of the base 5a compared to the lower side surface 20c of the second locking part 20 in the cryopreservation container 100. ing.
  • the first locking portion 10 in contact with the lower side surface 23c of the cryopreservation container 103 can touch the tip end 23a of the second locking portion 23.
  • a greater sense of resistance occurs than in the cryopreservation container 100.
  • This allows the user to feel a greater sense of resistance when the second locking part 23 and the first locking part 10 are locked, and can obtain a more secure wearing feeling. Therefore, even when the cap section 3 is attached while holding the cryopreservation container 103 with tweezers, the feeling of attachment is reliably conveyed, and the user can easily recognize that the cap section 3 is attached.
  • the present embodiment has been described in detail as above, the present disclosure is not limited to the above-described embodiment.
  • the first locking portion 10 (11, 12) is formed integrally with the cap portion 3, and the second locking portion 20 (21, 22, 23) is formed integrally with the insertion portion 5.
  • the first locking portions 10 (11, 12) and the cap portion 3 are formed separately, and the second locking portions 20 (21, 22, 23) and the insertion portion 5 are formed separately. It may also be something you have.
  • the first locking portion 10 (11, 12) and the second locking portion 20 (21, 22, 23) may be made of metal other than resin, for example.
  • the first locking portions 10 (11) are formed as convex portions of the same size at two opposing locations, but for example, one of the first locking portions 10 (11)
  • the portion 10 (11) may be different in size or shape from the other first locking portion 10 (11).
  • the number of first locking parts 10 (11) is not limited to two, but is arbitrary, and three or more first locking parts 10 (11) may be formed, or one Only the first locking portion 10 (11) may be formed.
  • two first locking portions 10 (11) facing each other are formed at four locations on the inner circumferential surface 3e of the thin portion 3c, and among these, the first locking portions 10 (11) facing each other are They may be formed to have the same size, and adjacent first locking portions 10 (11) may be formed to have different sizes.
  • the first locking portions 10 and 11 have upper side surfaces 10b and 11b, which are sloped surfaces that slope toward the opening 3b, respectively.
  • 11 are not curved and protruding convex parts like the cryopreservation container 100, for example, but are formed as inclined surfaces whose upper side surfaces 10b and 11b at least on the side of the opening 3b are inclined toward the side of the opening 3b. All you have to do is stay there. Therefore, for example, it may be formed as a convex portion projecting in a trapezoidal or triangular shape. Alternatively, the first locking portions 10 and 11 may be formed as convex portions in which the upper side surfaces 10b and 11b are not inclined.
  • the cap portion 3 has the thin portion 3c on the side of the opening 3b, but the cap portion 3 may not have the thin portion 3c formed therein.
  • cryopreservation container 100 in which both the enlarged diameter part 5d and the reduced diameter part 3d are formed is shown as an example, the cryopreservation container 100 has either the enlarged diameter part 5d or the reduced diameter part 3d. It is also possible to form a shell and seal the storage portion 7. For example, the enlarged diameter part 5d is fitted inside the cap part 3 and the storage part 7 is sealed, or the base part 5a or the holding part 5b is fitted into the inside of the reduced diameter part 3d and the storage part 7 is sealed.
  • the second locking part 20 is configured to have the function of the enlarged diameter part 5d, and the second locking part 20 is fitted inside the thin part 3c or the reduced diameter part 3d, so that it can be stored.
  • the portion 7 may be sealed.
  • the enlarged diameter portion 5d is fitted into the fitting region A in which the inner diameter of the reduced diameter portion 3d is the same size as the outer diameter OD2 of the enlarged diameter portion 5d.
  • 5d may be formed to have an outer diameter OD2 larger than the inner diameter of the reduced diameter portion 3d, and the enlarged diameter portion 5b may be pushed inside the reduced diameter portion 3d, thereby sealing the storage portion 7. Furthermore, if there is no need to seal the storage portion 7, neither the enlarged diameter portion 5d nor the reduced diameter portion 3d may be formed.
  • the main body 2 is shown as an example in which the gripping part 4, the base 5a, the holding part 5b, and the biological material placement part 6 are integrally formed, but the gripping part 4, the base 5a, the holding part 5b and The biological material placement section 6 may be formed as a separate member.
  • the holding part 5b and the biological material placement part 6 may be configured as separate members, and the biological material placement part 6 may be inserted and attached to a notch provided at the tip of the holding part 5b.
  • the shape of the cap portion 3 is not limited to a cylindrical shape, but may be a cylindrical shape having a polygonal cross section when cut in the longitudinal direction.
  • the insertion portion 5 is not limited to the cylindrical shape, but may also be a polygonal prism shape.
  • the shapes of the grip portion 4 and the weight portion 8 are not limited to the quadrangular prism shape, but may be a cylindrical shape or a polygonal prism shape.
  • the shapes of the gripping part 4 and the weight part 8 may be changed in cases where cryopreservation containers need to be placed one on top of the other, or when information regarding cryopreservation, such as the start date of cryopreservation, is written or printed on the gripping part or the weight part. If necessary, it is preferably formed in a quadrangular prism shape or a polygonal prism shape.

Abstract

La présente invention concerne un récipient de cryoconservation (100) comprenant : une partie de capuchon (3) présentant une première partie d'engagement (10) ; et un corps principal (2) présentant une deuxième partie d'engagement (20) dans une partie d'insertion (5). À l'extrémité de la partie d'insertion (5), une partie de montage de substance biologique (6) sur laquelle est montée une substance biologique est présente. En insérant la partie d'insertion (5) à travers une ouverture (3b) de la partie de bouchon (3), la partie de montage de substance biologique (6) est logée dans une partie de stockage (7) constituée entre la partie de bouchon (3) et la partie d'insertion (5). Grâce à la force générée lors de l'engagement entre la première partie d'engagement (10) et la deuxième partie d'engagement (20), l'ajustement sûr de la partie du capuchon (3) au corps principal (2) peut être facilement reconnu.
PCT/JP2022/016094 2022-03-30 2022-03-30 Récipient de cryoconservation WO2023188141A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2022/016094 WO2023188141A1 (fr) 2022-03-30 2022-03-30 Récipient de cryoconservation

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2022/016094 WO2023188141A1 (fr) 2022-03-30 2022-03-30 Récipient de cryoconservation

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WO2023188141A1 true WO2023188141A1 (fr) 2023-10-05

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012140422A (ja) * 2010-12-17 2012-07-26 Nipro Corp 凍結保存器具
WO2017187543A1 (fr) * 2016-04-27 2017-11-02 有限会社 乾メディカル Récipient de vitrification-cryoconservation dans un liquide, trousse dotée d'un récipient et tube destiné à le recevoir, et procédé de vitrification-cryoconservation dans un liquide
WO2018097267A1 (fr) * 2016-11-25 2018-05-31 正成 桑山 Récipient de cryoconservation d'œufs
JP2020120627A (ja) * 2019-01-31 2020-08-13 三菱製紙株式会社 細胞又は組織のガラス化凍結保存用治具
JP2020198825A (ja) * 2019-06-11 2020-12-17 三菱製紙株式会社 細胞又は組織の凍結保存用治具

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012140422A (ja) * 2010-12-17 2012-07-26 Nipro Corp 凍結保存器具
WO2017187543A1 (fr) * 2016-04-27 2017-11-02 有限会社 乾メディカル Récipient de vitrification-cryoconservation dans un liquide, trousse dotée d'un récipient et tube destiné à le recevoir, et procédé de vitrification-cryoconservation dans un liquide
WO2018097267A1 (fr) * 2016-11-25 2018-05-31 正成 桑山 Récipient de cryoconservation d'œufs
JP2020120627A (ja) * 2019-01-31 2020-08-13 三菱製紙株式会社 細胞又は組織のガラス化凍結保存用治具
JP2020198825A (ja) * 2019-06-11 2020-12-17 三菱製紙株式会社 細胞又は組織の凍結保存用治具

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